A component for a turbine engine includes a body with an exterior surface abutting a combustion flowpath for a combustion gas flow through the turbine engine, a cooling passage defined within the body, and a trench on the exterior surface. The trench includes a plurality of outlets, and a plurality of cooling holes extending from the cooling passage to the corresponding plurality of outlets.

A component for a turbine engine includes a body with an exterior surface abutting a combustion flowpath for a combustion gas flow through the turbine engine, a cooling passage defined within the body, and a trench on the exterior surface. The trench includes a plurality of outlets, and a plurality of cooling holes extending from the cooling passage to the corresponding plurality of outlets.

An insert assembly (10, 10A, 10B, 10C) to be used in a rotary apparatus for thermally treating fluids is provided. The insert assembly is configured for installation into the rotary apparatus comprising a rotor with a plurality of rotor blades arranged into a rotor blade cascade, a plurality of stationary vanes arranged into essentially annular vane cascades adjacently disposed with regard to the rotor blade cascade to form a stator-rotor-stator arrangement, and a casing, in which a duct is formed with at least one inlet and at least one outlet, said casing enclosing the stator-rotor-stator arrangement inside the duct. When positioned inside the duct, the insert assembly (10, 10A, 10B, 10C), forms a guideway to direct a stream of fluidic medium entering the duct through the at least one inlet towards the stator-rotor-stator arrangement and to further direct the stream of fluidic medium exiting the stator-rotor-stator arrangement towards the at least one outlet, respectively. By installing the insert assembly in the apparatus for thermally treating fluids.

An insert assembly to be used in a rotary apparatus for thermally treating fluids is configured for installation into the rotary apparatus including a rotor with a plurality of rotor blades arranged into a rotor blade cascade, stationary vanes arranged into essentially annular vane cascades adjacently disposed with regard to the rotor blade cascade to form a stator-rotor-stator arrangement, and a casing, in which a duct is formed with at least one inlet and at least one outlet, said casing enclosing the stator-rotor-stator arrangement inside the duct. When positioned inside the duct, the insert assembly forms a guideway to direct a stream of fluidic medium entering the duct through the at least one inlet towards the stator-rotor-stator arrangement and to further direct the stream of fluidic medium exiting the stator-rotor-stator arrangement towards the at least one outlet, respectively.

An insert assembly to be used in a rotary apparatus for thermally treating fluids is configured for installation into the rotary apparatus including a rotor with a plurality of rotor blades arranged into a rotor blade cascade, stationary vanes arranged into essentially annular vane cascades adjacently disposed with regard to the rotor blade cascade to form a stator-rotor-stator arrangement, and a casing, in which a duct is formed with at least one inlet and at least one outlet, said casing enclosing the stator-rotor-stator arrangement inside the duct. When positioned inside the duct, the insert assembly forms a guideway to direct a stream of fluidic medium entering the duct through the at least one inlet towards the stator-rotor-stator arrangement and to further direct the stream of fluidic medium exiting the stator-rotor-stator arrangement towards the at least one outlet, respectively.